ebiten/text/text.go
2018-02-12 04:07:59 +09:00

363 lines
7.8 KiB
Go

// Copyright 2017 The Ebiten Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package text offers functions to draw texts on an Ebiten's image.
//
// For the example using a TTF font, see font package in the examples.
package text
import (
"image"
"image/color"
"math"
"reflect"
"golang.org/x/image/font"
"golang.org/x/image/math/fixed"
"github.com/hajimehoshi/ebiten"
emath "github.com/hajimehoshi/ebiten/internal/math"
"github.com/hajimehoshi/ebiten/internal/sync"
)
var (
monotonicClock int64
)
func now() int64 {
monotonicClock++
return monotonicClock
}
var (
faces = map[font.Face]struct{}{}
)
func fontFaceToFace(f font.Face) font.Face {
if _, ok := faces[f]; ok {
return f
}
// If the (DeepEqual-ly) same font exists,
// reuse this to avoid to consume a lot of cache (#498).
for key := range faces {
if reflect.DeepEqual(key, f) {
return key
}
}
faces[f] = struct{}{}
return f
}
var (
// Use pointers to avoid copying on browsers.
charBounds = map[font.Face]map[rune]*fixed.Rectangle26_6{}
)
type char struct {
face font.Face
rune rune
atlasG int
}
func (c *char) bounds() *fixed.Rectangle26_6 {
if m, ok := charBounds[c.face]; ok {
if b, ok := m[c.rune]; ok {
return b
}
} else {
charBounds[c.face] = map[rune]*fixed.Rectangle26_6{}
}
b, _, _ := c.face.GlyphBounds(c.rune)
charBounds[c.face][c.rune] = &b
return &b
}
func (c *char) size() (fixed.Int26_6, fixed.Int26_6) {
b := c.bounds()
return b.Max.X - b.Min.X, b.Max.Y - b.Min.Y
}
func (c *char) empty() bool {
x, y := c.size()
return x == 0 || y == 0
}
func (c *char) atlasGroup() int {
if c.atlasG != 0 {
return c.atlasG
}
x, y := c.size()
w, h := x.Ceil(), y.Ceil()
t := w
if t < h {
t = h
}
// Different images for small runes are inefficient.
// Let's use a same texture atlas for typical character sizes.
if t < 32 {
return 32
}
c.atlasG = emath.NextPowerOf2Int(t)
return c.atlasG
}
type glyph struct {
char char
index int
atime int64
}
func fixed26_6ToFloat64(x fixed.Int26_6) float64 {
return float64(x) / (1 << 6)
}
type colorMCacheEntry struct {
m ebiten.ColorM
atime int64
}
var (
colorMCache = map[color.Color]*colorMCacheEntry{}
)
func (g *glyph) draw(dst *ebiten.Image, x, y fixed.Int26_6, clr color.Color) {
cr, cg, cb, ca := clr.RGBA()
if ca == 0 {
return
}
b := g.char.bounds()
op := &ebiten.DrawImageOptions{}
op.GeoM.Translate(fixed26_6ToFloat64(x+b.Min.X), fixed26_6ToFloat64(y+b.Min.Y))
e, ok := colorMCache[clr]
if ok {
e.atime = now()
} else {
if len(colorMCache) >= 256 {
var oldest color.Color
t := int64(math.MaxInt64)
for key, e := range colorMCache {
if e.atime < t {
t = g.atime
oldest = key
}
}
delete(colorMCache, oldest)
}
cm := ebiten.ColorM{}
rf := float64(cr) / float64(ca)
gf := float64(cg) / float64(ca)
bf := float64(cb) / float64(ca)
af := float64(ca) / 0xffff
cm.Scale(rf, gf, bf, af)
e = &colorMCacheEntry{
m: cm,
atime: now(),
}
colorMCache[clr] = e
}
op.ColorM = e.m
a := atlases[g.char.face][g.char.atlasGroup()]
sx, sy := a.at(g)
r := image.Rect(sx, sy, sx+a.glyphSize, sy+a.glyphSize)
op.SourceRect = &r
dst.DrawImage(a.image, op)
}
var (
atlases = map[font.Face]map[int]*atlas{}
)
type atlas struct {
// image is the back-end image to hold glyph cache.
image *ebiten.Image
// tmpImage is the temporary image as a renderer source for glyph.
tmpImage *ebiten.Image
// glyphSize is the size of one glyph in the cache.
// This value is always power of 2.
glyphSize int
runeToGlyph map[rune]*glyph
}
func (a *atlas) at(glyph *glyph) (int, int) {
if a.glyphSize != glyph.char.atlasGroup() {
panic("not reached")
}
w, _ := a.image.Size()
xnum := w / a.glyphSize
x, y := glyph.index%xnum, glyph.index/xnum
return x * a.glyphSize, y * a.glyphSize
}
func (a *atlas) maxGlyphNum() int {
w, h := a.image.Size()
xnum := w / a.glyphSize
ynum := h / a.glyphSize
return xnum * ynum
}
func (a *atlas) appendGlyph(char char, now int64) *glyph {
g := &glyph{
char: char,
atime: now,
}
if len(a.runeToGlyph) == a.maxGlyphNum() {
var oldest *glyph
t := int64(math.MaxInt64)
for _, g := range a.runeToGlyph {
if g.atime < t {
t = g.atime
oldest = g
}
}
if oldest == nil {
panic("not reached")
}
idx := oldest.index
delete(a.runeToGlyph, oldest.char.rune)
g.index = idx
} else {
g.index = len(a.runeToGlyph)
}
a.runeToGlyph[g.char.rune] = g
a.draw(g)
return g
}
func (a *atlas) draw(glyph *glyph) {
if a.tmpImage == nil {
a.tmpImage, _ = ebiten.NewImage(a.glyphSize, a.glyphSize, ebiten.FilterNearest)
}
dst := image.NewRGBA(image.Rect(0, 0, a.glyphSize, a.glyphSize))
d := font.Drawer{
Dst: dst,
Src: image.White,
Face: glyph.char.face,
}
b := glyph.char.bounds()
d.Dot = fixed.Point26_6{-b.Min.X, -b.Min.Y}
d.DrawString(string(glyph.char.rune))
a.tmpImage.ReplacePixels(dst.Pix)
op := &ebiten.DrawImageOptions{}
x, y := a.at(glyph)
op.GeoM.Translate(float64(x), float64(y))
op.CompositeMode = ebiten.CompositeModeCopy
a.image.DrawImage(a.tmpImage, op)
a.tmpImage.Clear()
}
func getGlyphFromCache(face font.Face, r rune, now int64) *glyph {
ch := char{
face: face,
rune: r,
}
var at *atlas
if m, ok := atlases[face]; ok {
a, ok := m[ch.atlasGroup()]
if ok {
g, ok := a.runeToGlyph[r]
if ok {
g.atime = now
return g
}
}
at = a
} else {
atlases[face] = map[int]*atlas{}
}
if ch.empty() {
// The glyph doesn't have its size but might have valid 'advance' parameter
// when ch is e.g. space (U+0020).
return &glyph{
char: ch,
atime: now,
}
}
if at == nil {
// Don't use ebiten.MaxImageSize here.
// It's because the back-end image pixels will be restored from GPU
// whenever a new glyph is rendered on the image, and restoring cost is
// expensive if the image is big.
// The back-end image is updated a temporary image, and the temporary image is
// always cleared after used. This means that there is no clue to restore
// the back-end image without reading from GPU
// (see the package 'restorable' implementation).
//
// TODO: How about making a new function for 'flagile' image?
const size = 1024
i, _ := ebiten.NewImage(size, size, ebiten.FilterNearest)
at = &atlas{
image: i,
glyphSize: ch.atlasGroup(),
runeToGlyph: map[rune]*glyph{},
}
atlases[face][ch.atlasGroup()] = at
}
return at.appendGlyph(ch, now)
}
var textM sync.Mutex
// Draw draws a given text on a given destination image dst.
//
// face is the font for text rendering.
// (x, y) represents a 'dot' (period) position.
// Be careful that this doesn't represent left-upper corner position.
// clr is the color for text rendering.
//
// Glyphs used for rendering are cached in least-recently-used way.
// It is OK to call this function with a same text and a same face at every frame in terms of performance.
//
// This function is concurrent-safe.
func Draw(dst *ebiten.Image, text string, face font.Face, x, y int, clr color.Color) {
textM.Lock()
n := now()
fx := fixed.I(x)
prevC := rune(-1)
runes := []rune(text)
for _, c := range runes {
if prevC >= 0 {
fx += face.Kern(prevC, c)
}
fa := fontFaceToFace(face)
if g := getGlyphFromCache(fa, c, n); g != nil {
if !g.char.empty() {
g.draw(dst, fx, fixed.I(y), clr)
}
a, _ := face.GlyphAdvance(c)
fx += a
}
prevC = c
}
textM.Unlock()
}